Neutrino Oscillatins Hint at a New Fundamental Interaction

It is suggested that neutrino oscillations do not exist and, in the light of the latest results of July 2016 of the Daya Bay Collaboration and the recent discovery of a new fundamental interaction, it is proposed that the neutrino production at the Sun’s core in the pp and CNO cycles are much larger than what is predicted by the Standard Solar Model, exactly because of this new interaction. Therefore, the claimed neutrino deficits on Earth are completely misleading.
Category:High Energy Particle Physics

What are Partons?

We discuss and critique some of the evidence that is often invoked to support the idea that partons are quarks. We present an alternative model in which the charged partons are electrons and positrons. This new model explains many experimental observations that the quark model is unable to explain. This paper is not intended to be an exhaustive review of the subject.
Category:High Energy Particle Physics

The Neutron Lifetime

We have developed an alternative to the standard model of particle physics. In our model, the mass of an elementary particle, like its charge, is an intrinsic property of the particle determined by its internal structure and internal kinematics. There is no Higgs mechanism.
In this paper we briefly review the current status of our model including the main results of calculations that we have reported previously. We then turn our attention to particle stability. We note a possible reason for the stability of the proton and the electron and, as a further application of our approach, we present a calculation of the neutron lifetime.
Category:High Energy Particle Physics

Leptonic CP Violation

Over the past few years, multiple neutrino experiments have detected hints for leptonic charge parity (CP) violation—a finding that could help explain why the universe is made of matter and not antimatter. So far, matter-antimatter asymmetry cannot be explained by any physics theory and is one of the biggest unsolved problems in cosmology. [8]
It could all have been so different. When matter first formed in the universe, our current theories suggest that it should have been accompanied by an equal amount of antimatter – a conclusion we know must be wrong, because we wouldn’t be here if it were true. Now the latest results from a pair of experiments designed to study the behaviour of neutrinos – particles that barely interact with the rest of the universe – could mean we’re starting to understand why. [7]
In 2012, a tiny flash of light was detected deep beneath the Antarctic ice. A burst of neutrinos was responsible, and the flash of light was their calling card. It might not sound momentous, but the flash could give us tantalising insights into one of the most energetic objects in the distant universe.
The light was triggered by the universe's most elusive particles when they made contact with a remarkable detector, appropriately called IceCube, which was built for the very purpose of capturing rare events such as this. [6]
Neutrinos and their weird subatomic ways could help us understand high-energy particles, exploding stars and the origins of matter itself. [5]
PHYSICS may be shifting to the right. Tantalizing signals at CERN’s Large Hadron Collider near Geneva, Switzerland, hint at a new particle that could end 50 years of thinking that nature discriminates between left and right-handed particles. [4]
The Weak Interaction transforms an electric charge in the diffraction pattern from one side to the other side, causing an electric dipole momentum change, which violates the CP and Time reversal symmetry.
The Neutrino Oscillation of the Weak Interaction shows that it is a General electric dipole change and it is possible to any other temperature dependent entropy and information changing diffraction pattern of atoms, molecules and even complicated biological living structures.
Category:High Energy Particle Physics

A quantum topological model is offered for the potential of producing energy through vacuum electromagnetic current generation, and its possible use for exoplanetary space travel propulsion systems.
Category:High Energy Particle Physics

A 34 me Neutral Boson, Predicted by a Particles Cold Genesis Theory and Experimentally Evidenced, as Argument for a Preonic Quark Model

The new neutral boson of 34 me , experimentally evidenced and supposed to be an X-boson of a fifth basic force, was predicted as being a basic z0 preon of cold formed quarks by a pre-quantum model of elementary particle resulted from an etherono-quantonic theory of the author, and can be a strong argument for a Bose-Einstein condensate model of particle, resulted by magnetically confined gammons formed as pairs of quasielectrons. A strong argument in the favour of the preonic structure of quarks and for the Cold Genesis of the elementary particles is proposed a new, pre-quantum model of quark resulted in theory with quasi-crystallin preonic structure, given by a quasi-crystallin form of the basic preon z0 , resulted as cluster of quasi-electrons. The brought arguments sustain also the conclusion that the z0 boson can be a „dark matter” constituent.
Category:High Energy Particle Physics

The Elementary Particle Pulsation Principle. the Complete Table of Contents.

Chapter1.Elementary particle pulsation principle.[1] Basic concept of the elementary particle pulsation principle.
[2] The concepts of elementary particle pulsation principle. and the existing facts.
[3] The grounds that came up with the idea of the hypothesis of the pulsation principle.Its history.
[4] The first step to elementary particle pulsation principle birth.
[5] I built the geometric model of the elementary particle pulsation principle.
[6] Summary of the elementary particle pulsation principle.
[7] The hypothesis of the elementary particle pulsation principle. (The original of the 1980 announcement)
[8] An elementary particle is a lump of the energy. It is super-high-speed and pulsates. The reason.
[9] The application of the elementary particle pulsation principle. The grounds of the idea.
[10] The characteristic list of the elementary particle pulsation principle. (Timing distinction).
[11] Figure of the quantum-mechanical uncertainty principle.
[12] The idea of elementary pulsation principle apply the concepts.
[13] Elementary pulsation principle concepts of theoretical physics puzzler. (1-33)
Category:High Energy Particle Physics

Quantum Neutrino Oscillation

The MIT team studied the distribution of neutrino flavors generated in Illinois, versus those detected in Minnesota, and found that these distributions can be explained most readily by quantum phenomena: As neutrinos sped between the reactor and detector, they were statistically most likely to be in a state of superposition, with no definite flavor or identity. [9]
A new study reveals that neutrinos produced in the core of a supernova are highly localised compared to neutrinos from all other known sources. This result stems from a fresh estimate for an entity characterising these neutrinos, known as wave packets, which provide information on both their position and their momentum. [8]
It could all have been so different. When matter first formed in the universe, our current theories suggest that it should have been accompanied by an equal amount of antimatter – a conclusion we know must be wrong, because we wouldn’t be here if it were true. Now the latest results from a pair of experiments designed to study the behaviour of neutrinos – particles that barely interact with the rest of the universe – could mean we’re starting to understand why. [7]
In 2012, a tiny flash of light was detected deep beneath the Antarctic ice. A burst of neutrinos was responsible, and the flash of light was their calling card. It might not sound momentous, but the flash could give us tantalising insights into one of the most energetic objects in the distant universe.
The light was triggered by the universe's most elusive particles when they made contact with a remarkable detector, appropriately called IceCube, which was built for the very purpose of capturing rare events such as this. [6]
Neutrinos and their weird subatomic ways could help us understand high-energy particles, exploding stars and the origins of matter itself. [5]
PHYSICS may be shifting to the right. Tantalizing signals at CERN’s Large Hadron Collider near Geneva, Switzerland, hint at a new particle that could end 50 years of thinking that nature discriminates between left and right-handed particles. [4]
The Weak Interaction transforms an electric charge in the diffraction pattern from one side to the other side, causing an electric dipole momentum change, which violates the CP and Time reversal symmetry.
The Neutrino Oscillation of the Weak Interaction shows that it is a General electric dipole change and it is possible to any other temperature dependent entropy and information changing diffraction pattern of atoms, molecules and even complicated biological living structures.
Category:High Energy Particle Physics

A Unified Phenomenological Description for the Origin of Mass for Leptons and for the Complete Baryon Octet and Decuplet, Including the Reported Inverse Dependence Upon the Alpha Constant.

Several authors have reported the dependence of the rest masses of particles upon the inverse of the alpha constant. Barut was able to associate such behavior with magnetic self-energy effects in the case of leptons. The present author has taken account of magnetic energy effects phenomenologically, in a way similar to the adopted by E. Post many years ago. This paper presents the extension of the approach to the full baryon octet and decuplet, and the inverse dependence with alpha is obtained. The masses of all these particles are shown to be described in terms of magnetodynamic energies considering as a fundamental feature the quantization of magnetic flux inside a zitterbewegung motion “ orbit” performed by each particle in consequence of its interaction with the vacuum background.
Category:High Energy Particle Physics

The Pulsation Principle Solves Infinite Difficulty.(1)

The pulsation principle solves infinite difficulty.(1)
All elementary particles convert it in sync.
The pulsation model of the elementary particle pulsation principle、
* All elementary particles convert it in sync with a particle trip, a wave trip, a minus number particle trip.
* The electromagnetic force works in a wave trip.
The electromagnetic force does not work in a particle trip. .
The electromagnetic force does not work in a minus number particle trip.
* All particles and minus number particles disappear in a wave trip.
The conversion synchronizes.
The electromagnetic force of All the photons not work in particle processes and negative particles process.
The electromagnetic force works in a wave trip.
* The concept of the vacuum of quantum mechanics.
Virtual particles (generation, annihilation) model.
* The random (generation, annihilation).
By it
Particles and antiparticles are always infinite pieces exist.
* Particles of Infinite number are involved in electromagnetism force.
Negative particles of Infinite number are involved in electromagnetism force.
By it
Renormalization prescriptions are needed.
* Photons mediate the electromagnetic force.
And
Photons are always infinite pieces exist.
Equation would be endless.
Category:High Energy Particle Physics

The 13/12 Schematic of Thirteen Fundamental Constants and Their Twelve Respective Ratios, that Give Rise to All Constants

Authors:Vito R. D'AngeloComments: 49 Pages. If the math works, an investigation is warranted.

It is proposed, that fundamental particle physics is inherently comprised of a fundamental scheme (13/12) that gives rise to the constants. The approach taken has been to extrapolate from the known constants of the standard model to a proposed fundamental (Democritean) unit. A hierarchal relationship between the constants and their respective ratios is shown. Every constant with an inherent ratio, e.g., the 2pi ratio of the Planck constant h and the reduced Planck constant h-bar. The 13/12 scheme theoretically calculates constants such as the Rydberg constant, Bohr magneton, Compton wavelength, Planck mass, etc., solely by dimensionless ratios.
Category:High Energy Particle Physics

A Proton and the Neutron in the Atomic Nucleus.

A proton and the neutron in the atomic nucleus.
The interpretation of the pulsation hypothesis,
Of the atomic nucleus,
A proton and the neutron are the same elementary particles.
The valley of the ripple of the material wave due to the neutron pulsation,
The electron goes around the valley.
When an electron is in the orbit of the proton, a proton turns into a neutron.
When an electron goes out of the orbit of the neutron, a neutron becomes the proton.
Proton (+ electric charge), an electron (- electric charge).
The proton (+ electric charge )+ electron (- electric charge) = neutrality.
Valley of the ripples of the nuclei to form electron orbitals.
The electron goes around an orbit.
When an electron is released from the orbit, the atom becomes the positive electric charge.
As for both the atomic nucleus and the atom, the change of the electric charge depends on electronic movement.
An electric charge will undergo a change. It is discontinuous (at the unit of electronic electric charge).
Category:High Energy Particle Physics

CP Symmetry Deviation

It could all have been so different. When matter first formed in the universe, our current theories suggest that it should have been accompanied by an equal amount of antimatter – a conclusion we know must be wrong, because we wouldn't be here if it were true. Now the latest results from a pair of experiments designed to study the behaviour of neutrinos – particles that barely interact with the rest of the universe – could mean we're starting to understand why. [7] In 2012, a tiny flash of light was detected deep beneath the Antarctic ice. A burst of neutrinos was responsible, and the flash of light was their calling card. It might not sound momentous, but the flash could give us tantalising insights into one of the most energetic objects in the distant universe. The light was triggered by the universe's most elusive particles when they made contact with a remarkable detector, appropriately called IceCube, which was built for the very purpose of capturing rare events such as this. [6] Neutrinos and their weird subatomic ways could help us understand high-energy particles, exploding stars and the origins of matter itself. [5] PHYSICS may be shifting to the right. Tantalizing signals at CERN's Large Hadron Collider near Geneva, Switzerland, hint at a new particle that could end 50 years of thinking that nature discriminates between left and right-handed particles. [4] The Weak Interaction transforms an electric charge in the diffraction pattern from one side to the other side, causing an electric dipole momentum change, which violates the CP and Time reversal symmetry. The Neutrino Oscillation of the Weak Interaction shows that it is a General electric dipole change and it is possible to any other temperature dependent entropy and information changing diffraction pattern of atoms, molecules and even complicated biological living structures.
Category:High Energy Particle Physics

Generalized Equations and Their Solutions in the (S,0)+(0,S) Representations of the Lorentz Group

In this talk I present three explicit examples of generalizations in relativistic quantum mechanics.
First of all, I discuss the generalized spin-1/2 equations
for neutrinos. They have been obtained by means of the Gersten-Sakurai method
for derivations of arbitrary-spin relativistic equations. Possible physical consequences are discussed. Next, it is easy to check that both Dirac algebraic equation Det (\hat p - m) =0 and Det (\hat p + m) =0 for u- and v- 4-spinors have solutions with p_0= \pm E_p =\pm \sqrt{{\bf p}^2 +m^2}. The same is true for higher-spin equations. Meanwhile, every book considers the equality p_0=E_p for both $u-$ and $v-$ spinors of the (1/2,0)+(0,1/2)) representation only, thus applying the Dirac-Feynman-Stueckelberg procedure for elimination of the negative-energy solutions. The recent Ziino works (and, independently,
the articles of several others) show that the Fock space can be doubled. We re-consider this possibility on the quantum field level for both S=1/2 and higher spin particles.
The third example is: we postulate the non-commutativity of 4-momenta, and we derive the mass splitting in the Dirac equation.
The applications are discussed.
Category:High Energy Particle Physics

The Illustration of the Uncertainty Principle.

An elementary particle pulsation hypothesis comments on an uncertainty principle in a figure.
An elementary particle pulsation hypothesis is physics of the dark energy.
According to the elementary particle pulsation hypothesis,
In a particle trip and a minus number particle trip, the elementary particle has size intermittently and can establish a position.
A particle trip and the minus number particle trip are the four-dimensional space that is not recognizable, five dimensions of space-time.
It is called a virtual space.
The wave trip is recognizable three-dimensional space, four-dimensional space-time.
In a wave trip, the mass of the elementary particle is zero.
It is the point that does not have size.
The position of the elementary particle is not clear.
By a particle trip, the minus number particle trip, the elementary particle can establish a position.
There cannot decide a value of the energy.
The wave trip can observe numerical value of the energy, but cannot decide the position of the elementary particle.
Category:High Energy Particle Physics